冰层和永冻土层的钻进研究、冰层取芯钻进的研究、复杂条件钻采技术、极地科学、环境工程

2011年至今发表论文总数40多篇和专著两本： 专著： 1.Talalay P.G. (2016). Mechanical ice drilling technology. Geological Publishing House, Beijing and Springer Science + Business Media Singapore, 284 p 2.Talalay P.G. (2014). Foundations of drilling engineering. Geological Publishing House, Beijing, China, 194 p. 论文： 1.Wang R., Liu A., Sun Y., Cao P., Fan X., Talalay P. (2018). Ice drill testing facility. Cold Regions Science and Technology 145, 151–159. 2.Wang R., An L., Cao P., Chen B., Sysoev M., Fan D., Talalay P.G. (2017). Rapid ice drilling with continual air transport of cuttings and cores: General concept. Polar Science, 14, 21-29. 3.Talalay P.G., Pyne A.R. (2017). Geological drilling in McMurdo Dry Valleys and McMurdo Sound, Antarctica: Historical development. Cold Regions Science and Technology 141, 131-162. 4.Talalay P., Sun Y., Zhao Y., Li Y., Cao P., Markov A., Xu H., Wang R., Zhang N., Fan X., Yang Y., Sysoev M., Liu Y., Liu Y. (2017). Drilling project at Gamburtsev Subglacial Mountains, East Antarctica: recent progress and plans for the future. In: Siegert, M.J., Jamieson, S.S.R., White, D.A. (Eds.) Exploration of Subsurface Antarctica: Uncovering Past Changes and Modern Processes. Geological Society, London, Special Publications, 461, https://doi.org/10.1144/SP461.9 5.Yang C., Jiang J., Cao P., Wang J., Fan X., Shang Y., Talalay P. (2017). Assessing the efficiency of carbide drill bits and factors influencing their application to debris-rich subglacial ice. Polar Science 13, 50-55. 6.Gong D., Zhang N., Liu Y., Li X., Тalalay P. (2016). Small-diameter vibrocorer for sediment coring beneath Antarctic ice shelves: General concept and testing. Ocean Engineering 126, 232–239. 7.Liu B., Wang R., Talalay P., Wang Q., Liu A. (2016). Circulation system of an Antarctic electromechanical bedrock drill. Polar Science 10, 463-469. 8.Liu N., Xu H., Yang Y., Han L., Wang L., Talalay P. (2016). Physicochemical properties of potential low-temperature drilling fluids for deep ice core drilling. Cold Regions Science and Technology, 129, 45-50. [PDF] 9.M. Sysoev, P. Talalay (2016). Research on drilling parameters of engine-powered auger ice drill. Global Geology, 19(1), 1-5. 10.Cao P., Yang C., Chen Y., Chen B., Talalay P. (2015). Experimental study of the drilling process in debris-rich ice. Cold Regions Science and Technology, 120, 138–144. 11.Тalalay P., Yang C., Cao P., Wang R., Zhang N., Fan X., Yang Y., Sun Y. (2015). Ice-core drilling problems and solutions. Cold Regions Science and Technology, 120, 1-20. 12.Hong J, Fan X., Liu Y., Liu G., Liu B., Talalay P. (2015). Size distribution and shape characteristics of ice cuttings produced by an electromechanical auger drill. Cold Regions Science and Technology, 119, 204-210. 13.Wang J., Cao P., Liu C., Talalay P.G. (2015). Comparison and analysis of subglacial bedrock core drilling technology in Polar Regions. Polar Science, 9 (2), 208–220. 14.Cao P., Chen B., Liu C., Yang C., Talalay P. (2015). Experimental investigation of cutting temperature in ice drilling. Cold Regions Science and Technology, 116, 78–85. 15.Тalalay P.G., Markov A.N. (2015). Thermobaric conditions at ice-water interface in Subglacial Lake Vostok, East Antarctica. Natural Resources, 6, 423-432. http://dx.doi.org/10.4236/nr.2015.66040 16.Markov A.N., Тalalay P.G. and Dahl-Jensen D. (2015): Interpretations of complicated folded structures at the lower parts of Antarctic and Greenland Ice Sheets. Geography, Environment, Sustainability, 8(01), 4-15. 17.Тalalay P.G. (2014): Perspectives for development of ice drilling technology: A discussion. Ann. Glaciol., 55 (68), 339-350. 18.Talalay P., Fan X., Zheng Z., Xue J., Cao P., Zhang N., Wang R., Yu D., Yu C., Zhang Y., Zhang Q., Su K., Yang D., Zhan J. (2014). Antitorque systems of electromechanical cable-suspended drills and tests results. Ann. Glaciol., 55 (68), 207-218. 19.Cao P., Yang C., Zheng Z., Wang R., Zhang N., Liu C., Hu Z., and Talalay P. (2014): Low-load diamond drill bits for subglacial bedrock sampling. Ann. Glaciol., 55 (68), 124-130. 20.Zhang N., An C., Fan X., Shi G., Li C., Liu j., Hu Z., Talalay P., Sun Y., Li Y. (2014). Chinese First Deep Ice-Core Drilling Project DK-1 at Dome A, Antarctica (2011–2013): progress and performance. Ann. Glaciol., 55 (68), 65-71. 21.Hong J., Talalay P., Sysoev M., Fan X. (2014). DEM modeling of ice cuttings transportation by electromechanical auger core drills. Ann. Glaciol., 55 (68), 65-71. 22.Xu H., Han L., Cao P., Guo M., Han J., Yu D., Talalay P. (2014): Low molecular weight, fatty acid esters as potential low-temperature drilling fluids for ice coring. Ann. Glaciol., 55 (68), 39-43. 23.Тalalay P.G., Zagorodnov V.S., Markov A.N., Sysoev M.A., and Hong J. (2014): Recoverable autonomous sonde (RECAS) for environmental exploration of Antarctic subglacial lakes: general concept. Ann. Glaciol. Vol. 55 (65), 23-30. 24.Тalalay P., Hu Z., Xu H., Yu D., Han L., Han J., and Wang L. (2014): Environmental considerations of low-temperature drilling fluids. Ann. Glaciol. Vol. 55 (65), 31-40. 26.Hong J., Talalay P. and Sysoev M. (2014). Optimization of ice cuttings transportation by cable-suspended core auger drills. Global Geology, 17(1), 48-54. 27.范晓鹏，张楠，达拉拉伊，刘刚，张奇，刘旭超，冯敏强 . 冰硬度试验台设计与试验. 探矿工程(岩土钻掘工程)2014年49卷 9期 28.Тalalay P.G. (2014). Exploration of Gamburtsev Subglacial Mountains, East Antarctica: Background and plans for the near future. Geography, Environment, Sustainability, 7(1), 5-15. 29.Talalay P.G., Fan X., Xu H., Yu D., Han L., Han J., Sun Y. (2014). Drilling fluid technology in ice sheets: Hydrostatic pressure and borehole closure considerations. Cold Regions Science and Technology 98, 47–54. 30.Talalay P.G. (2014). Drill heads of the deep ice electromechanical drills. Cold Regions Science and Technology 97, 41–56. 31.Yang C., Cao P., Talalay P., Zhai G., and Ma Y. (2013): Bionioc diamond drilling bits for subglacial bedrock core drilling. Exploration Engineering (Rock & Soil Drilling and Tunneling), 40 (330), 283-286. (in Chinese) 32.Chengfeng Yu, Zhichuan Zheng, Pavel Talalay, Pinlu Cao, Yunlong Zhang. (2013). Motion simulation of anti-torque device based on recurdyn for coring tool used for sub-glacial bedrock in Polar Regions and the motion analysis. Exploration Engineering (Rock and Soil Drilling And Tunneling). Vol. 40(12), 21-24. [In Chinese] 33.Xu H., Han L., Han J., Wang L., Yu D., Cao P., and Talalay P. (2013): Theory and experiment of ester drilling fluids for ice coring in Antarctica. Exploration Engineering (Rock & Soil Drilling and Tunneling), 40 (330), 279-282.  (in Chinese) 34.Lili Wang, Huiwen Xu, Dajun Zhao, Lili Han, Jiayu Song, Pavel Talalay. (2013). Simulation on the Influence of Drilling Fluids in Antarctic Ice Core Drilling on Snow Layer. Exploration engineering (Rock and Soil Drilling and Tunneling). Vol.40 (12), 1-4. [In Chinese] 35.Lili Wang, Dajun Zhao, Huiwen Xu, Lili Han, Jiayu Song and Pavel Talalay. (2013). Experiment on resistance to low temperature performance of ester drilling fluid in Antarctic ice core drilling. Global Geology, Vol. 32 (4), 862-866. [In Chinese] 36.Yu D., Talalay P., Xu H., Cao P., Sysoev M., Han L., and Han J. (2013): Improvements of drilling fluid processing for cable-suspended electromechanical drills. Global Geology. Vol. 16 (2), 99-105. 37.Talalay P.G., Markov A.N., Sysoev M.A. (2013). New frontiers of Antarctic subglacial lakes exploration. Geography, Environment, Sustainability, Vol. 6, No. 1, p. 14-28. 38.Talalay P.G. (2013): Subglacial till and bedrock drilling. Cold Regions Science and Technology, Vol. 86, 142–166. 39.Xiaopeng Fan, Pavel Talalay, Zhichuan Zheng, Nan Zhang, Chengfeng Yu, Da Gong. (2013). Electric mechanical coring drill anti-torque device test bench design and experiment.Exploration engineering (Rock and Soil Drilling and Tunneling), Vol. 40(12):18-20, 24. [In Chinese] 40.Junjie Han, Lili Han, Huiwen Xu, Dahui Yu, Pinlu Cao, Pavel Talalay. (2013). Theoretical and Experimental  Research on the Ultra-low Temperature Drilling Fluids for the Polar Ice Coring Drilling. Exploration engineering (Rock and Soil Drilling And Tunneling). Vol. 40(6): 23-26. [In Chinese] 41.Hu Z., P. Talalay, P. Cao, J. Xue, Z. Zheng, D.Yu. (2012). Investigations of near-bottom air reverse circulation. Journal of Jilin University (Earth Science Edition). 42 (3), 374-378. [PDF] [In Chinese] 42.Han L., H. Xu, P. Cao, D. Yu and P.G. Talalay (2012). Research on viscosity testing method of ultra-low temperature drilling fluids for Polar glacier drilling. Global Geology, Vol. 15(4), 276-280. [In Chinese] 43.Qiang Zhang, Chen Chen, P.G. Talalay. (2012). Drilling in Ice-layer with the cable Mechanical coring tool. Proceedings of the Sixteenth National Exploration Engineering Conference, 74-80. 44.Talalay P. (2012): Russian researchers reach subglacial Lake Vostok in Antarctica. Advances in Polar Science. Vol. 23, No. 3. p. 176-180. 45.Vasiliev N.I., Talalay P.G., and Vostok Deep Ice Core Drilling Parties. (2011): Twenty years of drilling the deepest hole in ice. Scientific Drilling. No. 11, March 2011. p. 41-45.

2012年至今发表专利成果与技术15篇： 1.一种模拟南极冰下环境的实验系统。发明人：王如生，刘安，达拉拉伊，刘刚，刘博文，曹品鲁，张楠，范晓鹏，杨阳，马科夫 专利号：ZL201620587871.2授权公告日：2017年2月1日. 2.一种用于极地冰雪钻进的热水取芯钻头。发明人：王如生、刘安，达拉拉伊，孙友宏，米沙，杨阳，曹品鲁，范晓鹏，刘刚，李枭专利号：ZL201720151507.6授权公告日：2017年9月12日. 3.冰层空气涡轮反循环连续取心孔底动力钻。发明人：王如生;达拉拉伊;宫达;孙友宏;曹品鲁;张楠;郑治川;范晓鹏;胡正毅;杨成 专利号：ZL201310645162.6授权公告日：2017年8月18日. 4.低温环境下冰的硬度和抗压强度测试装置。发明人：范晓鹏，达拉拉伊，张楠，曹品鲁，王婷，杨成，宫达，洪嘉琳，刘刚 专利号：ZL201410208789.X授权公告日：2016年6月8日 5.极地冰岩夹层取心式硬质合金钻头。发明人：达拉拉伊，李枭，杨成，张晗，刘刚，李星辰，刘安，曹品鲁，张楠，马银龙，高科 专利号：ZL201620111342.5授权公告日：2016年9月21日 6.用于冰芯钻探的高效磁力打捞器。发明人：达拉拉伊，李星辰，宫达，曹品鲁，王如生，张楠，范晓鹏 专利号：ZL201521004327.2授权公告日：2016年4月27日 7.随钻测量海冰及河冰厚度的方法。发明人：张楠，范晓鹏，达拉拉伊，曹品鲁，郑治川，胡正毅，米沙 专利号：ZL 2013 1 0260472.6 授权公告日：2015年6月26日 8.随钻测量海冰及河冰厚度的钻具。发明人：达拉拉伊，李星辰，宫达，曹品鲁，王如生，张楠，范晓鹏 专利号：ZL 2013 2 0373073.6授权公告日：2013年12月4日 9.冰层定向钻井热熔钻头。发明人：达拉拉伊，范晓鹏，张楠，孙友宏，薛军，曹品鲁，郑治川，于达慧，胡正毅，杨成，毛建设 专利号：ZL 2012 2 0466454.4 授权公告日：2013年3月6日 10.回转热熔钻头。发明人：孙友宏，毛建设，范晓鹏，达拉拉伊，张楠，薛军，曹品鲁，于达慧，李强，胡正毅，杨成，宫达 专利号：ZL.2012 2 0466490.0 授权公告日：2013年2月20日 11.光纤排线器换向机构。发明人：范晓鹏，孙友宏，达拉拉伊，王庆华，毛建设，李强，王婷 专利号：ZL 2012 2 0480246.X 授权公告日：2013年3月6日 12.一种基于无线数据传输的流量采集装置 。发明人：付成伟，韩炜，达拉拉伊，高明，李一鸣，张楠，与超然，闫文龙，马科夫 专利号：ZL 2013 2 0537453.9 授权公告日：2014年2月12日. 13.一种利用水-冰和冰-水相变能的发电装置。发明人：马科夫，达拉拉伊 专利号：ZL 2013 2 0397786.6 授权公告日：2013年12月25日. 14.将水-冰相变增加的压力转化为电能的压电陶瓷发电装置。发明人：马科夫，达拉拉伊 专利号：ZL 2013 2 0397761.6 授权公告日：2013年12月25日. 15.一种利用水结冰时相变产生的内压力的挤压装置。发明人：马科夫，达拉拉伊 专利号：ZL 2013 2 0397790.2 授权公告日：2013年12月25日.

2014年:  中国政府友谊奖，奖励为中国的经济和社会进步作出杰出贡献；